The unit of overall coefficient of heat transfer is

Heat and Mass Transfer
The unit of overall coefficient of heat transfer is

kcal/m² hr °C

kcal/m hr °C

kcal/m²

kcal/hr °C

kcal/m² hr °C

kcal/m hr °C

kcal/m²

kcal/hr °C

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Heat and Mass Transfer
According to Dalton's law of partial pressures, (where pb = Barometric pressure, pa = Partial pressure of dry air, and pv = Partial pressure of water vapour)

Pb = pa + pv

Pb = pa × pv

Pb = pa - pv

Pb = pa/pv

Pb = pa + pv

Pb = pa × pv

Pb = pa - pv

Pb = pa/pv

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Heat and Mass Transfer
Heat transfer by radiation mainly depends upon

Its temperature

Kind and extent of its surface

All of these

Nature of the body

Its temperature

Kind and extent of its surface

All of these

Nature of the body

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Heat and Mass Transfer
Film coefficient is defined as Inside diameter of tube

Film coefficient × Inside diameter Thermal conductivity

Thermal conductivity Equivalent thickness of film Specific heat × Viscosity

Equivalent thickness of film

Thermal conductivity Molecular diffusivity of momentum Thermal diffusivity

Film coefficient × Inside diameter Thermal conductivity

Thermal conductivity Equivalent thickness of film Specific heat × Viscosity

Equivalent thickness of film

Thermal conductivity Molecular diffusivity of momentum Thermal diffusivity

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Heat and Mass Transfer
The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

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Heat and Mass Transfer
The energy distribution of an ideal reflector at higher temperatures is largely in the range of

Remain same at all wavelengths

Longer wavelength

Shorter wavelength

Wavelength has nothing to do with it

Remain same at all wavelengths

Longer wavelength

Shorter wavelength

Wavelength has nothing to do with it

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Heat and Mass Transfer

Heat and Mass Transfer The unit of overall coefficient of heat transfer is

Heat and Mass Transfer According to Dalton's law of partial pressures, (where pb = Barometric pressure, pa = Partial pressure of dry air, and pv = Partial pressure of water vapour)

Heat and Mass Transfer Heat transfer by radiation mainly depends upon

Heat and Mass Transfer Film coefficient is defined as Inside diameter of tube

Heat and Mass Transfer The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer The energy distribution of an ideal reflector at higher temperatures is largely in the range of

Heat and Mass Transfer
The unit of overall coefficient of heat transfer is

Heat and Mass Transfer
According to Dalton's law of partial pressures, (where pb = Barometric pressure, pa = Partial pressure of dry air, and pv = Partial pressure of water vapour)

Heat and Mass Transfer
Heat transfer by radiation mainly depends upon

Heat and Mass Transfer
Film coefficient is defined as Inside diameter of tube

Heat and Mass Transfer
The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer
The energy distribution of an ideal reflector at higher temperatures is largely in the range of